大肠杆菌转醛醇酶B还原席夫碱中间体复合物的晶体结构:I类醛缩酶的机制意义
Crystal structure of the reduced Schiff-base intermediate complex of transaldolase B from Escherichia coli: mechanistic implications for class I aldolases.
作者信息
Jia J, Schörken U, Lindqvist Y, Sprenger G A, Schneider G
机构信息
Department of Medical Biochemistry and Biophysics, Karolinska Institute, Stockholm, Sweden.
出版信息
Protein Sci. 1997 Jan;6(1):119-24. doi: 10.1002/pro.5560060113.
Abstract
Transaldolase catalyzes transfer of a dihydroxyacetone moiety from a ketose donor to an aldose acceptor. During catalysis, a Schiff-base intermediate between dihydroxyacetone and the epsilon-amino group of a lysine residue at the active site of the enzyme is formed. This Schiff-base intermediate has been trapped by reduction with potassium borohydride, and the crystal structure of this complex has been determined at 2.2 A resolution. The overall structures of the complex and the native enzyme are very similar; formation of the intermediate induces no large conformational changes. The dihydroxyacetone moiety is covalently linked to the side chain of Lys 132 at the active site of the enzyme. The Cl hydroxyl group of the dihydroxyacetone moiety forms hydrogen bonds to the side chains of residues Asn 154 and Ser 176. The C3 hydroxyl group interacts with the side chain of Asp 17 and Asn 35. Based on the crystal structure of this complex a reaction mechanism for transaldolase is proposed.
摘要
转醛醇酶催化二羟基丙酮部分从酮糖供体转移至醛糖受体。在催化过程中,二羟基丙酮与酶活性位点处赖氨酸残基的ε-氨基之间形成席夫碱中间体。该席夫碱中间体已通过硼氢化钾还原捕获,并且此复合物的晶体结构已在2.2埃分辨率下测定。复合物和天然酶的整体结构非常相似;中间体的形成未引起大的构象变化。二羟基丙酮部分共价连接至酶活性位点处赖氨酸132的侧链。二羟基丙酮部分的C1羟基与天冬酰胺154和丝氨酸176残基的侧链形成氢键。C3羟基与天冬氨酸17和天冬酰胺35的侧链相互作用。基于该复合物的晶体结构,提出了转醛醇酶的反应机制。
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